mod parse;
use frame_support_procedural_tools::syn_ext as ext;
use frame_support_procedural_tools::{generate_crate_access, generate_hidden_includes};
use parse::{ModuleDeclaration, RuntimeDefinition, WhereSection, ModulePart};
use proc_macro::TokenStream;
use proc_macro2::{TokenStream as TokenStream2};
use quote::quote;
use syn::{Ident, Result, TypePath};
use std::collections::HashMap;
const SYSTEM_MODULE_NAME: &str = "System";
#[derive(Debug, Clone)]
pub struct Module {
pub name: Ident,
pub index: u8,
pub module: Ident,
pub instance: Option<Ident>,
pub module_parts: Vec<ModulePart>,
}
impl Module {
fn module_parts(&self) -> &[ModulePart] {
&self.module_parts
}
fn find_part(&self, name: &str) -> Option<&ModulePart> {
self.module_parts.iter().find(|part| part.name() == name)
}
fn exists_part(&self, name: &str) -> bool {
self.find_part(name).is_some()
}
}
fn complete_modules(decl: impl Iterator<Item = ModuleDeclaration>) -> syn::Result<Vec<Module>> {
let mut indices = HashMap::new();
let mut last_index: Option<u8> = None;
let mut names = HashMap::new();
decl
.map(|module| {
let final_index = match module.index {
Some(i) => i,
None => last_index.map_or(Some(0), |i| i.checked_add(1))
.ok_or_else(|| {
let msg = "Module index doesn't fit into u8, index is 256";
syn::Error::new(module.name.span(), msg)
})?,
};
last_index = Some(final_index);
if let Some(used_module) = indices.insert(final_index, module.name.clone()) {
let msg = format!(
"Module indices are conflicting: Both modules {} and {} are at index {}",
used_module,
module.name,
final_index,
);
let mut err = syn::Error::new(used_module.span(), &msg);
err.combine(syn::Error::new(module.name.span(), msg));
return Err(err);
}
if let Some(used_module) = names.insert(module.name.clone(), module.name.span()) {
let msg = "Two modules with the same name!";
let mut err = syn::Error::new(used_module, &msg);
err.combine(syn::Error::new(module.name.span(), &msg));
return Err(err);
}
Ok(Module {
name: module.name,
index: final_index,
module: module.module,
instance: module.instance,
module_parts: module.module_parts,
})
})
.collect()
}
pub fn construct_runtime(input: TokenStream) -> TokenStream {
let definition = syn::parse_macro_input!(input as RuntimeDefinition);
construct_runtime_parsed(definition)
.unwrap_or_else(|e| e.to_compile_error())
.into()
}
fn construct_runtime_parsed(definition: RuntimeDefinition) -> Result<TokenStream2> {
let RuntimeDefinition {
name,
where_section: WhereSection {
block,
node_block,
unchecked_extrinsic,
..
},
modules:
ext::Braces {
content: ext::Punctuated { inner: modules, .. },
token: modules_token,
},
..
} = definition;
let modules = complete_modules(modules.into_iter())?;
let system_module = modules.iter()
.find(|decl| decl.name == SYSTEM_MODULE_NAME)
.ok_or_else(|| syn::Error::new(
modules_token.span,
"`System` module declaration is missing. \
Please add this line: `System: frame_system::{Module, Call, Storage, Config, Event<T>},`",
))?;
let hidden_crate_name = "construct_runtime";
let scrate = generate_crate_access(&hidden_crate_name, "frame-support");
let scrate_decl = generate_hidden_includes(&hidden_crate_name, "frame-support");
let all_but_system_modules = modules.iter().filter(|module| module.name != SYSTEM_MODULE_NAME);
let outer_event = decl_outer_event(
&name,
modules.iter(),
&scrate,
)?;
let outer_origin = decl_outer_origin(
&name,
all_but_system_modules,
&system_module,
&scrate,
)?;
let all_modules = decl_all_modules(&name, modules.iter());
let module_to_index = decl_pallet_runtime_setup(&modules, &scrate);
let dispatch = decl_outer_dispatch(&name, modules.iter(), &scrate);
let metadata = decl_runtime_metadata(&name, modules.iter(), &scrate, &unchecked_extrinsic);
let outer_config = decl_outer_config(&name, modules.iter(), &scrate);
let inherent = decl_outer_inherent(
&block,
&unchecked_extrinsic,
modules.iter(),
&scrate,
);
let validate_unsigned = decl_validate_unsigned(&name, modules.iter(), &scrate);
let integrity_test = decl_integrity_test(&scrate);
let res = quote!(
#scrate_decl
const _: () = {
#[allow(unused)]
type __hidden_use_of_unchecked_extrinsic = #unchecked_extrinsic;
};
#[derive(Clone, Copy, PartialEq, Eq, #scrate::sp_runtime::RuntimeDebug)]
pub struct #name;
impl #scrate::sp_runtime::traits::GetNodeBlockType for #name {
type NodeBlock = #node_block;
}
impl #scrate::sp_runtime::traits::GetRuntimeBlockType for #name {
type RuntimeBlock = #block;
}
#outer_event
#outer_origin
#all_modules
#module_to_index
#dispatch
#metadata
#outer_config
#inherent
#validate_unsigned
#integrity_test
);
Ok(res)
}
fn decl_validate_unsigned<'a>(
runtime: &'a Ident,
module_declarations: impl Iterator<Item = &'a Module>,
scrate: &'a TokenStream2,
) -> TokenStream2 {
let modules_tokens = module_declarations
.filter(|module_declaration| module_declaration.exists_part("ValidateUnsigned"))
.map(|module_declaration| &module_declaration.name);
quote!(
#scrate::impl_outer_validate_unsigned!(
impl ValidateUnsigned for #runtime {
#( #modules_tokens )*
}
);
)
}
fn decl_outer_inherent<'a>(
block: &'a syn::TypePath,
unchecked_extrinsic: &'a syn::TypePath,
module_declarations: impl Iterator<Item = &'a Module>,
scrate: &'a TokenStream2,
) -> TokenStream2 {
let modules_tokens = module_declarations.filter_map(|module_declaration| {
let maybe_config_part = module_declaration.find_part("Inherent");
maybe_config_part.map(|_| {
let name = &module_declaration.name;
quote!(#name,)
})
});
quote!(
#scrate::impl_outer_inherent!(
impl Inherents where
Block = #block,
UncheckedExtrinsic = #unchecked_extrinsic
{
#(#modules_tokens)*
}
);
)
}
fn decl_outer_config<'a>(
runtime: &'a Ident,
module_declarations: impl Iterator<Item = &'a Module>,
scrate: &'a TokenStream2,
) -> TokenStream2 {
let modules_tokens = module_declarations
.filter_map(|module_declaration| {
module_declaration.find_part("Config").map(|part| {
let transformed_generics: Vec<_> = part
.generics
.params
.iter()
.map(|param| quote!(<#param>))
.collect();
(module_declaration, transformed_generics)
})
})
.map(|(module_declaration, generics)| {
let module = &module_declaration.module;
let name = Ident::new(
&format!("{}Config", module_declaration.name),
module_declaration.name.span(),
);
let instance = module_declaration.instance.as_ref().into_iter();
quote!(
#name =>
#module #(#instance)* #(#generics)*,
)
});
quote!(
#scrate::impl_outer_config! {
pub struct GenesisConfig for #runtime where AllModulesWithSystem = AllModulesWithSystem {
#(#modules_tokens)*
}
}
)
}
fn decl_runtime_metadata<'a>(
runtime: &'a Ident,
module_declarations: impl Iterator<Item = &'a Module>,
scrate: &'a TokenStream2,
extrinsic: &TypePath,
) -> TokenStream2 {
let modules_tokens = module_declarations
.filter_map(|module_declaration| {
module_declaration.find_part("Module").map(|_| {
let filtered_names: Vec<_> = module_declaration
.module_parts()
.iter()
.filter(|part| part.name() != "Module")
.map(|part| part.ident())
.collect();
(module_declaration, filtered_names)
})
})
.map(|(module_declaration, filtered_names)| {
let module = &module_declaration.module;
let name = &module_declaration.name;
let instance = module_declaration
.instance
.as_ref()
.map(|name| quote!(<#name>))
.into_iter();
let index = module_declaration.index;
quote!(
#module::Module #(#instance)* as #name { index #index } with #(#filtered_names)*,
)
});
quote!(
#scrate::impl_runtime_metadata!{
for #runtime with modules where Extrinsic = #extrinsic
#(#modules_tokens)*
}
)
}
fn decl_outer_dispatch<'a>(
runtime: &'a Ident,
module_declarations: impl Iterator<Item = &'a Module>,
scrate: &'a TokenStream2,
) -> TokenStream2 {
let modules_tokens = module_declarations
.filter(|module_declaration| module_declaration.exists_part("Call"))
.map(|module_declaration| {
let module = &module_declaration.module;
let name = &module_declaration.name;
let index = module_declaration.index;
quote!(#[codec(index = #index)] #module::#name)
});
quote!(
#scrate::impl_outer_dispatch! {
pub enum Call for #runtime where origin: Origin {
#(#modules_tokens,)*
}
}
)
}
fn decl_outer_origin<'a>(
runtime_name: &'a Ident,
modules_except_system: impl Iterator<Item = &'a Module>,
system_module: &'a Module,
scrate: &'a TokenStream2,
) -> syn::Result<TokenStream2> {
let mut modules_tokens = TokenStream2::new();
for module_declaration in modules_except_system {
if let Some(module_entry) = module_declaration.find_part("Origin") {
let module = &module_declaration.module;
let instance = module_declaration.instance.as_ref();
let generics = &module_entry.generics;
if instance.is_some() && generics.params.is_empty() {
let msg = format!(
"Instantiable module with no generic `Origin` cannot \
be constructed: module `{}` must have generic `Origin`",
module_declaration.name
);
return Err(syn::Error::new(module_declaration.name.span(), msg));
}
let index = module_declaration.index;
let tokens = quote!(#[codec(index = #index)] #module #instance #generics,);
modules_tokens.extend(tokens);
}
}
let system_name = &system_module.module;
let system_index = system_module.index;
Ok(quote!(
#scrate::impl_outer_origin! {
pub enum Origin for #runtime_name where
system = #system_name,
system_index = #system_index
{
#modules_tokens
}
}
))
}
fn decl_outer_event<'a>(
runtime_name: &'a Ident,
module_declarations: impl Iterator<Item = &'a Module>,
scrate: &'a TokenStream2,
) -> syn::Result<TokenStream2> {
let mut modules_tokens = TokenStream2::new();
for module_declaration in module_declarations {
if let Some(module_entry) = module_declaration.find_part("Event") {
let module = &module_declaration.module;
let instance = module_declaration.instance.as_ref();
let generics = &module_entry.generics;
if instance.is_some() && generics.params.is_empty() {
let msg = format!(
"Instantiable module with no generic `Event` cannot \
be constructed: module `{}` must have generic `Event`",
module_declaration.name,
);
return Err(syn::Error::new(module_declaration.name.span(), msg));
}
let index = module_declaration.index;
let tokens = quote!(#[codec(index = #index)] #module #instance #generics,);
modules_tokens.extend(tokens);
}
}
Ok(quote!(
#scrate::impl_outer_event! {
pub enum Event for #runtime_name {
#modules_tokens
}
}
))
}
fn decl_all_modules<'a>(
runtime: &'a Ident,
module_declarations: impl Iterator<Item = &'a Module>,
) -> TokenStream2 {
let mut types = TokenStream2::new();
let mut names = Vec::new();
for module_declaration in module_declarations {
let type_name = &module_declaration.name;
let module = &module_declaration.module;
let mut generics = vec![quote!(#runtime)];
generics.extend(
module_declaration
.instance
.iter()
.map(|name| quote!(#module::#name)),
);
let type_decl = quote!(
pub type #type_name = #module::Module <#(#generics),*>;
);
types.extend(type_decl);
names.push(&module_declaration.name);
}
let all_modules = names.iter()
.filter(|n| **n != SYSTEM_MODULE_NAME)
.fold(TokenStream2::default(), |combined, name| quote!((#name, #combined)));
let all_modules_with_system = names.iter()
.fold(TokenStream2::default(), |combined, name| quote!((#name, #combined)));
quote!(
#types
pub type AllModules = ( #all_modules );
pub type AllModulesWithSystem = ( #all_modules_with_system );
)
}
fn decl_pallet_runtime_setup(
module_declarations: &[Module],
scrate: &TokenStream2,
) -> TokenStream2 {
let names = module_declarations.iter().map(|d| &d.name);
let names2 = module_declarations.iter().map(|d| &d.name);
let name_strings = module_declarations.iter().map(|d| d.name.to_string());
let indices = module_declarations.iter()
.map(|module| module.index as usize);
quote!(
pub struct PalletInfo;
impl #scrate::traits::PalletInfo for PalletInfo {
fn index<P: 'static>() -> Option<usize> {
let type_id = #scrate::sp_std::any::TypeId::of::<P>();
#(
if type_id == #scrate::sp_std::any::TypeId::of::<#names>() {
return Some(#indices)
}
)*
None
}
fn name<P: 'static>() -> Option<&'static str> {
let type_id = #scrate::sp_std::any::TypeId::of::<P>();
#(
if type_id == #scrate::sp_std::any::TypeId::of::<#names2>() {
return Some(#name_strings)
}
)*
None
}
}
)
}
fn decl_integrity_test(scrate: &TokenStream2) -> TokenStream2 {
quote!(
#[cfg(test)]
mod __construct_runtime_integrity_test {
use super::*;
#[test]
pub fn runtime_integrity_tests() {
<AllModules as #scrate::traits::IntegrityTest>::integrity_test();
}
}
)
}